CN210653812U - Compressing conveying mechanism - Google Patents

Abstract

The application belongs to the technical field of food packaging, and particularly relates to a compressing and conveying mechanism which comprises a transverse package detection part, a transverse package material removing part and a flattening part, wherein the transverse package detection part is arranged on a rack and comprises a plurality of inclined rollers arranged at the lower part and unpowered rollers arranged at the upper part, first baffles are arranged at two sides of each inclined roller, an inclined conveying channel is formed among the inclined rollers, the unpowered rollers and the first baffles at two sides, and a first photoelectric sensor for detecting the width of bagged food is arranged at the tail end of each inclined roller; the first photoelectric sensor signal is connected with the transverse wrapping material rejecting part signal. Compressing tightly conveying mechanism can realize flattening to bagged food to and the rejection to horizontal package food, avoided the problem that the bagged food of horizontal package can't the vanning in later stage.

Description

Compressing conveying mechanism

Technical Field

The application belongs to the technical field of food package, especially, relate to a compress tightly conveying mechanism.

Background

The process of bagging can be accomplished at first to current food after contour machining accomplishes, and the bagged food after the bagging-off is accomplished is carried to vanning equipment department again and is carried out the vanning operation, but current food when carrying out the bagging-off process, need unify the same direction with bagged food, all bagged food when requiring the vanning are the state of erecting the package, can not incline too much or the state of horizontal package appears. However, the bagged food is usually scattered freely on the conveyer belt after bagging, and if the orientation of the bagged food is not corrected manually, the orientation of the bagged food is not uniform when the bagged food is clamped or boxed, and the like easily occur. And in the conveying process of the bagged food, the food in the packaging bag is likely to be piled up, so that the height of the bagged food is different, and the later-period smooth boxing is not facilitated.

The prior patent number is CN201210349697.4, please date 2012-09-20, entitled vibration device based on soft bag packing, and the technical scheme is as follows: the invention relates to a vibrating device based on soft bag boxing, which comprises a vibrating rack part, a flattening part, a box feeding roller way part, a box pulling part and a vibrating part, and is characterized in that: the flattening support of the flattening component, the frame of the box feeding roller way component, the box pulling frame of the box pulling component and the vibration guide rod mounting plate of the vibration component are respectively mounted on the frame of the vibration frame component, the box feeding roller way component is mounted at the front end of the vibration frame component, the vibration component is mounted at the rear end of the vibration frame component, the box pulling component is mounted in the middle of the vibration frame component, the flattening component is mounted right above the vibration component, and the components coordinate to complete conveying and compacting of the carton. The invention has the advantages of reasonable structure, reliable performance, simple and convenient operation and no dust pollution.

The above patent is to the vanning back, and the soft food that is located the packing box vibrates and flattens, but if the packing box is equipped with too much soft food in, the food that is located the bottom is not easily arranged in order under the effect of vibration and is leveled to treat the mode that soft food gets into after the packing box and handle it, also there is not the way to solve the horizontal package problem in transportation process.

Disclosure of Invention

In order to overcome the problem that the conventional equipment cannot effectively solve the problem of transverse package in the process of packing bagged food and easily causes the problem that the bagged food is jammed or the bagged food is disordered in arrangement in the packing process, the compressing and conveying mechanism is provided at present.

In order to achieve the technical effects, the technical scheme of the application is as follows:

the utility model provides a compress tightly conveying mechanism which characterized in that: the transverse bag detection part comprises a plurality of inclined rollers arranged at the lower part and unpowered rollers arranged at the upper part, first baffle plates are arranged at two sides of each inclined roller, inclined conveying channels are formed among the inclined rollers, the unpowered rollers and the first baffle plates at two sides, and a first photoelectric sensor for detecting the width of bagged food is arranged at the tail end of each inclined roller; the first photoelectric sensor signal is connected with the transverse wrapping material rejecting part signal.

The inclined rollers are horizontally arranged, the inclined directions and the angles of the inclined rollers are the same, and the inclined rollers are used for conveying the bagged food to the first baffle on one side of the inclined conveying channel.

Violently package picks material part and is provided with a plurality of jolting material cylinders that are located the lower part, and the upper portion of jolting material cylinder is provided with the mounting bracket, is provided with the push pedal on the mounting bracket, and the push pedal passes through the sprocket and the chain links to each other with servo motor, and a photoelectric sensing ware links to each other with the servo motor signal, and servo motor drives the push pedal and is horizontal reciprocating motion.

The material-jolting roller is in a triangular, quadrangular or polygonal roller structure.

The flattening part comprises a lower conveying belt arranged at the lower part and an upper conveying belt arranged at the upper part, and a material pressing channel is formed between the two conveying belts.

The working principle of this application does:

the materials are deflected to one side under the driving of the unpowered roller and the inclined roller, and after the position of the first photoelectric sensor is adjusted, whether a transverse bag exists or not is detected according to the preset length difference of the transverse bag and the vertical bag; after receiving the signal of the first photoelectric sensor, the servo motor drives the chain wheel to rotate, and the push plate arranged on the chain moves along with the chain wheel to push the transverse bag out transversely.

The application has the advantages that:

1. compressing tightly conveying mechanism can realize flattening to bagged food to and the rejection to horizontal package food, avoided the problem that the bagged food of horizontal package can't the vanning in later stage.

2. Through the length and the width of wrapping bag, can set up the width size department that the horizontal package of pocket food is with first photoelectric sensing ware, horizontal package testing part can utilize the rotation of slope cylinder earlier to let all pocket food all toward one side transport, when the pocket food contacts with the first baffle of one side, partial pocket food can be under the effect of first baffle and slope cylinder, correct the state of erecting the package by the skew state, but still have partial pocket food can keep the state of slope state or horizontal package, detect whether there is pocket food to be horizontal package through first photoelectric sensing ware, with signal transmission to subsequent horizontal package rejection part.

3. The transverse bag material removing part can enable bagged food to shake through rotation of the material overturning roller, the bagged food with part of unevenness is subjected to leveling processing, after a transverse bag signal of the first photoelectric sensor is received, the push plate is driven by the servo motor to move, transversely pushes out a transverse bag conveyed by the push plate from the direction of the horizontal perpendicular to the conveying direction, and the pushed transverse bag can be conveyed again or corrected in the direction through a manual or conveying belt conveying mode.

4. The material-tossing roller is of a triangular, quadrilateral or polygonal roller structure, and aims to ensure that the bagged food is bumpy or shaken in the forward conveying process through sharp or protruding roller corners so as to force the food in the packaging bag to be gradually flattened, thereby ensuring that the food in the packaging bag is more dispersed and uniform.

5. The flattening part can be used for flattening the shaken bagged food again, so that the thickness of the bagged food before boxing is ensured to be uniform as much as possible, and the boxing process is facilitated.

Drawings

Fig. 1 is a schematic structural diagram of the present application.

In the drawings:

21-transverse package detection part, 22-transverse package rejecting part, 23-flattening part, 211-inclined roller, 212-unpowered roller, 213-first baffle, 214-first photoelectric sensor, 221-material overturning roller, 222-mounting rack, 223-push plate, 224-chain wheel, 225-chain, 231-lower conveying belt and 232-upper conveying belt. 100-bagged food.

Detailed Description

Example 1

As shown in fig. 1, the pressing and conveying mechanism comprises a transverse-wrapping detection part 21, a transverse-wrapping material-removing part 22 and a flattening part 23 which are arranged on a rack, the transverse-wrapping detection part 21 comprises a plurality of inclined rollers 211 arranged at the lower part and unpowered rollers 212 arranged at the upper part, first baffles 213 are arranged at two sides of the inclined rollers 211, inclined conveying channels are formed among the inclined rollers 211, the unpowered rollers 212 and the first baffles 213 at two sides, and a first photoelectric sensor 214 for detecting the width of the bagged food 100 is arranged at the tail end of the inclined rollers 211; the first photoelectric sensor 214 is connected with the transverse package rejecting part 22 through signals, and the inclined roller 211 is connected with the power part. The compressing and conveying mechanism can realize flattening of the bagged food 100 and rejection of the transverse packaged food, and the problem that the transverse packaged bagged food 100 cannot be boxed in the later period is solved.

Example 2

As shown in fig. 1, the pressing and conveying mechanism comprises a transverse-wrapping detection part 21, a transverse-wrapping material-removing part 22 and a flattening part 23 which are arranged on a rack, the transverse-wrapping detection part 21 comprises a plurality of inclined rollers 211 arranged at the lower part and unpowered rollers 212 arranged at the upper part, first baffles 213 are arranged at two sides of the inclined rollers 211, inclined conveying channels are formed among the inclined rollers 211, the unpowered rollers 212 and the first baffles 213 at two sides, and a first photoelectric sensor 214 for detecting the width of the bagged food 100 is arranged at the tail end of the inclined rollers 211; the first photoelectric sensor 214 is connected with the transverse package rejecting part 22 through signals, and the inclined roller 211 is connected with a power part which can be a motor.

The inclined rollers 211 are horizontally disposed, and the inclined directions and angles of the plurality of inclined rollers 211 are the same, and the inclined rollers 211 serve to transfer the pouched foods 100 toward the first barrier 213 at one side of the inclined transfer path. When the bagged food 100 is conveyed on the inclined rollers 211, the bagged food is driven by the inclined rollers 211 to be transmitted to the inclined direction of the inclined rollers 211, so as to touch the first baffle 213 on one side, and the first photoelectric sensor 214 can sense and measure the width of the bagged food 100 from the first baffle 213 on the side.

Violently package picks material part 22 and is provided with a plurality of material cylinders 221 of turning that are located the lower part, and the upper portion of turning material cylinder 221 is provided with mounting bracket 222, is provided with push pedal 223 on the mounting bracket 222, and push pedal 223 passes through sprocket 224 and chain 225 and links to each other with servo motor, and first photoelectric sensing ware 214 links to each other with servo motor signal, and servo motor drives push pedal 223 and makes horizontal reciprocating motion. The material tumbling drum 221 is connected to a power section, which may be a motor. In addition to the drive configuration of the sprocket 224 and chain 225, other drive means known to those skilled in the art may be used.

The material shaking roller 221 is a triangular, quadrangular or polygonal roller structure. The material-stirring roller 221 rotates to shake the bagged food 100 on it when it is conveyed forward, so that the food in the bag can be more dispersed and uniform.

The flattening section 23 includes a lower conveyor belt 231 disposed at a lower portion and an upper conveyor belt 232 disposed at an upper portion, and a nip passage is formed between the two conveyor belts. The two conveyor belts are connected with the power part, and the upper surface and the lower surface of the bagged food 100 in the pressing channel are leveled again by the friction force conveyed to the same direction at the same time. The power part may be a motor.

The first photo sensor 214 mentioned in this application is a distance sensor or a position sensor commonly used in the art, and it is also known to those skilled in the art that it is connected to the servo motor through signals.

The materials are slightly pressed by the unpowered roller 212 and driven by the inclined roller 211 to deflect to one side, and after the position of the first photoelectric sensor 214 is adjusted, whether a transverse bag exists or not is detected according to a preset transverse-vertical bag length difference; after receiving the signal from the first photoelectric sensor 214, the servo motor drives the sprocket 224 to rotate, and the push plate 223 mounted on the chain 225 moves along with the sprocket to push out the transverse bag transversely.

The compressing and conveying mechanism can realize flattening of the bagged food 100 and rejection of the transverse packaged food, and the problem that the transverse packaged bagged food 100 cannot be boxed in the later period is solved.

Through the length and the width of the packaging bag, the first photoelectric sensor 214 can be arranged at the position of the width dimension of the transverse bag of the bagged food 100, the transverse bag detection part 21 can firstly utilize the rotation of the inclined roller 211 to enable all the bagged food 100 to be conveyed to one side, when the bagged food 100 is contacted with the first baffle 213 at one side, the partial bagged food 100 can be corrected to be in a vertical bag state from a deviation state under the action of the first baffle 213 and the inclined roller 211, but the partial bagged food 100 still can be kept in an inclined state or in a transverse bag state, and the first photoelectric sensor 214 detects whether the bagged food 100 is in the transverse bag state or not and transmits signals to the subsequent transverse bag material removing part 22.

The transverse-packaging material-rejecting part 22 can enable the bagged food 100 to shake through rotation of the material-flipping roller 221, and flatten part of the uneven bagged food 100, after receiving a transverse-packaging signal of the first photoelectric sensor 214, the push plate 223 is driven by the servo motor to move, transversely pushes out the conveyed transverse package from the direction horizontal to the conveying direction, and the pushed transverse package can be conveyed manually or by a conveying belt to re-convey or correct the direction.

The material-shaking roller 221 is a triangular, quadrangular or polygonal roller structure, and is aimed at making the bagged food 100 bumpy or shaken in the forward conveying process through a relatively sharp or relatively protruded roller corner, so as to force the food in the packaging bag to be gradually flattened, thereby making the food in the packaging bag more dispersed and uniform.

The flattening part 23 can flatten the shaken bagged food 100 again, so that the thickness of the bagged food 100 before boxing is ensured to be uniform as much as possible, and the boxing process is facilitated.

Claims (5)

1. The utility model provides a compress tightly conveying mechanism which characterized in that: the bag-type food packaging machine comprises a transverse bag detection part (21), a transverse bag material removing part (22) and a flattening part (23) which are arranged on a rack, wherein the transverse bag detection part (21) comprises a plurality of inclined rollers (211) arranged at the lower part and unpowered rollers (212) arranged at the upper part, first baffle plates (213) are arranged on two sides of each inclined roller (211), inclined conveying channels are formed among the inclined rollers (211), the unpowered rollers (212) and the first baffle plates (213) on two sides, and a first photoelectric sensor (214) for detecting the width of bagged food (100) is arranged at the tail end of each inclined roller (211); the signal of the first photoelectric sensor (214) is connected with the signal of the transverse package rejecting part (22).

2. The compacting conveyor as claimed in claim 1, further comprising: the inclined rollers (211) are horizontally arranged, the inclined directions and the angles of the inclined rollers (211) are the same, and the inclined rollers (211) are used for conveying the bagged food (100) to a first baffle (213) at one side of the inclined conveying channel.

3. The compacting conveyor as claimed in claim 1, further comprising: violently wrap and pick material part (22) and be provided with a plurality of top material cylinder (221) that are located the lower part, the upper portion of top material cylinder (221) is provided with mounting bracket (222), is provided with push pedal (223) on mounting bracket (222), and push pedal (223) link to each other with servo motor through sprocket (224) and chain (225), and first photoelectric sensing ware (214) link to each other with servo motor signal, and servo motor drives push pedal (223) and makes horizontal reciprocating motion.

4. The compacting conveyor as claimed in claim 3, further comprising: the material shaking roller (221) is in a triangular, quadrangular or polygonal roller structure.

5. The compacting conveyor as claimed in claim 1, further comprising: the flattening part (23) comprises a lower conveying belt (231) arranged at the lower part and an upper conveying belt (232) arranged at the upper part, and a material pressing channel is formed between the two conveying belts.

Images